The EEG signal is usually recorded with low time constant analog prefilters to avoid
low frequency artefacts. During this kind of recording the frequency components below
the cutoff frequency of the analog prefilter (usually below about 1 to 3 Hz) are lost.
By visual examination of some experimental recordings taken with a higher time constant,
it was noticed that during burst-suppression EEG the DC-level of the signal rises
sharply when the burst begins and falls when the burst ends. Thus, a burst actually
consists of a mixed frequency discharge on a pulse-like DC-shift. We developed a filter
algorithm to estimate the change in the DC-level during bursts as accurately as possible.
Keywords
Detection - EEG - FMH Filtering - Burst-Suppression - Anesthesia
